Physicists observe an exotic “multiferroic” state in an atomically thin material
Discovery shows for the first time that multiferroic properties can exist in a two-dimensional material; could lead to more efficient magnetic memory devices.
Discovery shows for the first time that multiferroic properties can exist in a two-dimensional material; could lead to more efficient magnetic memory devices.
Senior Heidi Li strives to help local communities understand how they can influence policymaking to achieve a more sustainable future.
The material could pave the way for sustainable plastics.
With many devices depending on the motion of ions, light could be used as a switch to turn ion motion on and off.
Thermal span in a layered compound promises applications in next-generation electrical switches and nonvolatile memory.
Heather Kulik embraces computer models as “the only way to make a dent” in the vast number of potential materials that could solve important problems.
Through MIT’s Undergraduate Research Opportunities Program, students explore research topics relevant to their own interests, the MCSC, and member companies.
The sticky patch could be quickly applied to repair gut leaks and tears.
The new substance is the result of a feat thought to be impossible: polymerizing a material in two dimensions.
Doctoral candidate Nina Andrejević combines spectroscopy and machine learning techniques to identify novel and valuable properties in matter.
An MIT team develops 3D-printed tags to classify and store data on physical objects.
Using ultrathin materials to reduce the size of superconducting qubits may pave the way for personal-sized quantum devices.
New work on superconducting kagome metal will aid design of other unusual quantum materials, with many potential applications.
MIT researchers lay out a strategy for how universities can help the US regain its place as a semiconductor superpower.
SMART breakthrough could help develop technologies that can identify materials according to desired properties for specific applications.